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Altitudinal and Latitudinal Migration of Cryptomeria japonica for the Past 20,000 Years in Japan

Published online by Cambridge University Press:  20 January 2017

Matsuo Tsukada
Matsuo Tsukada*
Affiliation:
Department of Botany and Quaternary Research Center AK-60, University of Washington, Seattle, Washington 98195
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Abstract

Biostatistical analysis of modern pollen assemblages in 152 Japanese surface samples shows that Cryptomeria japonica can normally grow in areas with a mean January temperature of approximately −7° to 7°C, a mean August temperature of 19° to 27°C, and an effective precipitation (total precipitation during the growing season) of over 1000 mm. The full-glacial distribution of the species on both the Sea of Japan and the Pacific coasts (35–36°N lat) indicates that in these areas the maximum possible reduction of temperature was 8.7–10.2°C in January and 6.0–7.3°C in August, and that the effective precipitation was low, being 1000–1350 mm, or 40–55% below the modern level, provided that the species has not changed its physiological characteristics. Populations of C. japonica expanded northward and upslope from their full-glacial areas of distribution immediately after late-glacial climatic amelioration. This expansion appears to have been regulated mainly by the availability of effective precipitation which became high in northeastern Honshu about 4000 yr ago. After about 2500 yr B.P., C. japonica was planted extensively by humans in moist, temperate climatic regions (excluding Hokkaido), and now has its widest distribution since at least the last full-glacial interval.

Type
Research Article
Information
Quaternary Research , Volume 26 , Issue 1 , July 1986 , pp. 135 - 152
Copyright
University of Washington

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References

Anonymous Forestry of the Sugi, Cryptomeria japonica D. Don, and the Karamatsu, Larix leptolepis Gord Department of Forestry, Ministry of Agriculture and Forestry, Government of Japan Tokyo Google Scholar
Bennett, K.D.(1983).Postglacial forest expansion at Hockham Mere, Norfolk, U.K. Nature (London) 303 164 167 Google Scholar
Bennett, K.D.(1985).The spread of Fagus grandifolia across eastern North America during the last 18,000 years Journal of Biogeography 12 147 164 CrossRefGoogle Scholar
Birks, H.J.B. Gordon, A.D.(1985).Numerical Methods in Quaternary Pollen Analysis Academic Press London and New York Google Scholar
Bertsch, K.(1953).Geschichte des deutschen Waldes Fischer Jena Google Scholar
Davis, M.B.(1976).Pleistocene biogeography of temperate deciduous forests Geoscience and Man 13 13 26 Google Scholar
Davis, M.B.(1981).Quaternary history and the stability of Forest Communities West, D.C. Shugart, H.H. Botkin, D.B. Forest Succession Springer-Verlag New York 132 153 CrossRefGoogle Scholar
Davis, M.B.(1983).Holocene vegetation of the eastern United States Wright, H.E. Late-Quaternary Environments of the United States University of Minnesota Press Minneapolis 166 181 Google Scholar
Firbas, F.(1949).Spät- und nacheiszeitliche Waldgeschichte Mitteleuropas nördlich der Alpen Fischer Jena Google Scholar
Fuji'i, S.(1983).Research Report on the Submerged Forest Offcoast of Yoshiwara, Nyuzen-machi Nyuzen-machi's Board of Education Nyuzen-machi Google Scholar
Hatanaka, K.(1967).A palynological study of the Tokusa basin in Yamaguchi Prefecture Bulletin of the Faculty of General Education, Kitakyushu University 3 3 25 34 Google Scholar
Hatanaka, K.(1985).Palynological studies on the vegetational succession since the Wurm glacial age in Kyushu and adjacent areas Journal of the Faculty of Literature, Kitakyushu University (Series B) 18 29 71 Google Scholar
Huntley, B. Birks, H.J.B.(1983).An Atlas of Past and Present Pollen Maps for Europe: 0–13000 Years Ago Cambridge University Press Cambridge Google Scholar
Japan Meteorologica Agency, (1959).The Precipitation of Japan: Monthly Average Japan Meteorological Agency Tokyo Google Scholar
Japan Meteorological Corporation, (1958).The Temperature of Japan: Monthly Average Japan Meteorological Agency Tokyo Google Scholar
Miki, S.(1950).Taxodiaceae of Japan, with special reference to its remains Journal of Institute of Polytechnics, Osaka City University, Series D (Biology) 1 63 77 Google Scholar
Miyoshi, N. Tsujimoto, H. Yamashita, K.(1985).Pollen analytical study of sediments in Tokusa basin (Paleo-Tokusa Lake), Yamaguchi Prefecture. II. On depths 33–45 m The 32nd Annual Meeting of the Ecological Society of Japan (Abstract) 222 Google Scholar
Morita, Y.(1985).The vegetation history of the subalpine zone in Northeast Japan. II. The Hachimantai Mountains Japanese Journal of Ecology 35 411 420 Google Scholar
Negishi, K.(1969).Photosynthesis, respiration and growth in one-year-old seedlings of Pinus densiflora, Cryptomeria japonica and Chamaecyparis obtusa Journal of Japanese Forestry Soceity 51 293 296 Google Scholar
Ohnishi, I.(1969).Pollen flora of the Tsunozu Group in Shimane Prefecture, Japan Memoirs of Faculty of Literature and Science, Shimane University, Natural Science 2 42 62 Google Scholar
Sohma, K.(1984).Two late-Quaternary pollen diagrams from Northeast Japan Science Reports of Tohoku University, 4th Series (Biology) 38 351 369 Google Scholar
Szafer, W.(1935).The significance of isopollen lines for the investigation of the geographical distribution of trees in the post-glacial period Bulletin de l'Academic Polonaise des Sciences et des Lettres Series B 1 235 239 Google Scholar
Tai, A.(1973).A study on the pollen stratigraphy of the Osaka Group, Pliocene-Pleistocene deposits in the Osaka basin Memoirs of Faculty of Science, Kyoto University, Geology and Mineralogy Series 39 123 165 Google Scholar
Tsuji, S. Minaki, M. Osawa, S.(1984).Paleobotany and paleoenvironment of the late Pleistocene in the Sagami region, central Japan Daiyonki-Kenkyu Quaternary Research 22 279 296 Google Scholar
Tsuji, S. Minaki, M. Suzuki, M.(1984).Plant fossil assemblage of the latest Pleistocene at Ninomiya-cho, southern Tochigi Prefecture, central Japan Daiyonki-Kenkyu Quaternary Research 23 21 29 Google Scholar
Tsukada, M.(1958).Untersuchungen über das Verhältnis zwisehen dem Pollengehalt der Oberflächenproben und der Vegetation Hochlandes Shiga Journal of Institute of Polytechnics, Osaka City University, Series D (Biology) 9 217 234 Google Scholar
Tsukada, M.(1967).Pollen succession, absolute pollen frequency and recurrence surfaces in central Japan American Journal of Botany 54 821 831 Google Scholar
Tsukada, M.(1974).Paleoecology. II. Synthesis Kyoritsu Tokyo Google Scholar
Tsukada, M.(1980).History of Japanese cedar: The last 15,000 years Kagaku Science 50 538 546 Google Scholar
Tsukada, M.(1981a).The last 12,000 years: The vegetation history of Japan. II. New pollen zones Japanese Journal of Ecology 31 201 215 Google Scholar
Tsukada, M.(1981b). Cryptomeria japonica D. Don. I. Pollen dispersal and logistic forest expansion Japanese Journal of Ecology 31 310 320 Google Scholar
Tsukada, M.(1982a). Cryptomeria japonica: Glacial refugia and late-glacial and postglacial migration Ecology 63 1091 1105 CrossRefGoogle Scholar
Tsukada, M.(1982b). Pseudotsuga menziesii (Mirab.) Franco: Its pollen dispersal and late Quaternary history in the Pacific Northwest Japanese Journal of Ecology 32 159 187 Google Scholar
Tsukada, M.(1982c).Late-Quaternary development of the Fagus forest in the Japanese Archipelago Japanese Journal of Ecology 32 113 118 Google Scholar
Tsukada, M. 1982d Late-Quaternary shift of Fagus distribution Botanical Magazine. Tokyo 95 203 235 Google Scholar
Tsukada, M.(1983).Vegetation and climate during the last glacial maximum in Japan Quaternary Research 19 212 235 Google Scholar
Tsukada, M.(1984).Vegetation map in the Japanese Archipelago 20,000 year ago Japanese Journal of Ecology 34 203 208 Google Scholar
Tsukada, M.(1985).Map of vegetation during the last glacial maximum in Japan Quaternary Research 23 369 381 Google Scholar
Tsukada, M.(1986a).Vegetationsgeschichte des späten Quartar im Kantogebiet Miyawaki, A. Vegetation of Japan. VII. Kanto Shibun-do Tokyo 78 103 Google Scholar
Tsukada, M.(1986b).Vegetation in prehistoric Japan: the last 20,000 years Pearson, R.J. Windows on the Japanese Past: Studies in Archaeology and Prehistory Center for Japanese Studies, the University of Michigan Ann Arbor 11 56 Google Scholar
Tsukada, M. (in press). Vegetationsgeschichte des späten Quartär. In “Vegetation of Japan. VIII. Tohoku” ( Miyawaki, A. Ed.) Shibun-do, Tokyo.Google Scholar
Tsukada, M. Sugita, S.(1982).Late Quaternary dynamics of pollen influx at Mineral Lake, Washington Botanical Magazine, Tokyo 95 401 418 CrossRefGoogle Scholar
Tsukada, M. Sugita, S. and Tsukada, Y. (in press). Oldest primitive agriculture and vegetational environments in Japan. Nature (London) .Google Scholar
von Post, L.(1929).Die Zeichenschrift der Pollenstatistik Geologiska Föreningens i Stockholm Förhandlinger 4 543 565 Google Scholar
Watts, W.A.(1973).Rates of change and stability in vegetation in the perspective of long periods of time Birks, H.J.B. West, R.G. Quaternary Plant Ecology Wiley New York 195 206 Google Scholar
Webb, T. III(1981).The past 11,000 years of vegetational change in eastern North America Bioscience 31 501 506 Google Scholar
Yasuda, Y.(1985).Environmental histories of beech forests and civilizations in the East and the West Cultures in the Beech Zone Shisaku-sha Tokyo 29 63 (Anonymous, Ed.)Google Scholar
Young, S.B.(1971).The Vascular Flora of St. Lawrence Island with Special Reference to Floristic Zonation in the Arctic Region 11 115 Contribution of Gray Herbarium of Harvard University, No 201Google Scholar